Measuring and dispensing device



July 23, 1929. H. A. JUNGE 1,721,866

MEASURING AND DISPENSING DEVICE Filed June 21, 1927 2 Sheets-Sheet l July 23, 1929. H. A. JUNGE MEASURING AND DISPENSING DEVICE 2 Sheets-Sheet 2 Patented July 23, 1929.

UNITED STATES HENRY A. JUNGE, 0F GRANTWOOD, NEW JERSEY.

.MEASUBING AND DISPENSING DEVICE. 1

Application filed we 21',

' This invention relates to a device designed primarily for domestic use whereby finely comminuted materials, and more especially colfee, can be measured out and dispensed so as to insure proper proportions of coffee or the like and water or other liquid for the purpose of obtaining the most satisfactory results.

Coffee merchants frequently receive complaints about their products which, upon investigation, have been found to result from improper proportioning of the ingredients rather than inferiority of the product sold. For the purpose of obtaining the most desirable results it is essential that a certain amount of cofi'ee,'for example, be used with each cupful of water and any slight deviation from the correct amount frequently results in a beverage which does not meet the standard required. As a general rule coffee is measured out by the tablespoonful and where directions require that one tablespoonful be used with every cupful of water it frequently happens that at one time an even tablespoonful of coflee will bevused while at other times a rounded tablespoonful or a heaping table spoonful will be used. Consequently the resultant beverage will not always have the same taste even though prepared from the same stock. For the purpose of avoiding complaints which are frequently due to incorrect measuring of the product, it is an object of the present invention to provide, a simple, durable and efficient measuring device which can be set up readily in a kitchen and to which a container holding coffee or the like can be connected. It is also an object of the invention to provide a device of this character which can be actuated to dispense the bulk material in measured quantities, the dispensed portions being uniform at all times so that the beverage will not vary. in strength or flavor. v

With the foregoing and other objects in view which will appear as the description proceeds, the inventionresides in the combination and arrangement of parts and in the details of construction hereinafter described and claimed, it being understood that changes in the precise embodiment of the invention herein disclosed may be made within the scope of what is claimed, without departing from the spirit of the invention.

In the accompanying drawings, the pre- 1927. Serial No. 200,447.

ferred forms shown.

In said drawings,

of the invention have been Figure l is aside elevation of the device, a

container in the form of a can being shown combined therewith, a portion being broken away. I a

Figure 2 is a section on line 2-2, Figure 1. I Figure 3 is a section on line 3,3, Figure 2.

Figure i is a plan view of the dispensing device, portions being broken away.

Figure 5 is a side elevation of a portionof a slightly modified form. p

Figure dis a view partly in section and partly in elevation showing the device-adapted for engagement by a container in the form of a jar.

Referring to the figures by characters of reference 1 designates a'hopper-like receiver substantially conical, the upper or large end thereof being formed with an annular shoulder 2 from which is extended a circular flange 3. The flange and shoulder cooperate to provide a seatfor the open end of a container 4 in theform of a can, said container being preferably of a special construction as hereinafter explained. Spaced apertures 5 are formed in the shoulder 2 and at a point substantially diametrically opposite these apertures a guide rib 6 is pressed inwardly from the flange 3 and extends from the top to the bottom thereof. v

The lower or small end of the receiver 1 opens into the upper-end of a casing 7 having flat parallel side walls 8 connectedby opposed arcuate walls 9 the lower portions of which are concentric with a shaft. 10 journaled in the flat side walls 8. The upper portions of indicated at a, b, 0, and J. These blades,

which are necessarily angular, are adapted to lightly engage the inner surface of the arcuate portion of each wall 9 and they also extend I close to the flat side walls 8.

Ahandle 14 is arranged outside of the casing 7 and secured to shaft 10. In the structure illustrated in Figures 1 to 4 inclusive a spring 15 is coiled about one end of the shaft 10 and has one end anchored to the casing 7 as shown at 16 while the other end straddles and thrusts against the handle 14: as shown at 17. Thus the handle is normally pressed yieldingly againsta stop lug 18 at which time two of the blades 13 are extendedstraight across the casing 7 as shown in Figure 3 while the remaining blades 13 are extended substan-, tially vertically.

With the parts thus located itwillbe'noted that bulk material supplied to the receiving portion 1 will gravitate into the two pockets a and 6. Thus when the handle 14 is swung away fromthe stop 18 against the action of springlfi the-blades-will be rotated with the shaft '10and as the upper blade 13 gradually comes against the innersurface of the arcuate portion of one of the walls 9, a measured quantity of the bulk material will be trapped between two of the blades and said wall and subsequently be delivered downwardly through the spout 12. lVith the parts positioned as'shown in Figures 1 and 3 the con tents of the pocket I) would be brought to the position indicated by pocket d while at the same time pocket 0' would be brought to the 1 position indicated by pocket at. Thus while the contents of pocket Z) are being delivered, pocket 0 is being filled by the gravitation of bulk material. While the blades are in these positions the handle 14 can be held against a stop 19 'After the delivery of the contents of pocket Z) the handle 14 can be releasedwhereupon the parts will return automatically to the positions shown in Figures 1 and 2. This will return the pocket Z) to a point where it can be one-quarter circleduring the dispensing of the bulk material the same can be moved through a one-half circle against either of two diametrically opposed stops 20 and 21' as at 15 in Figure 1,'need not be used.

' The dispensing device can be connected to a wall or other structureby using a simple form of supporting member such as shown,

for example,-in Figures 2, 3 andfl, this member being inv the form of abracket including an attaching plate 22 having angular hooks 23 projecting laterally therefrom. These books are so spaced as to enter the spaced openings in-the shoulder 2;

The container 4 which is preferably in the form of a can in which the bulk material is sold, may be specially shaped for use in connection with the dispensing device. For example, a short longitudinal groove 24 can be pressed thereinto at one end while spaced channels 25 can also be pressed thereinto at the same end: Groove 24 and the channels 25 are so located relative to each other that when the rib'6 is inserted into groove 24, the channels 25 will register with the openings 5. The'length of the groove 24 and channels'25 is such that the removable cover (not shown) provided for the container will conceal the same.

In using the device the cover is removed froma can holding'the bulk material and the dispensing" device is then inverted and placed thereon with the rib 6 seated in groove 24 and the'openings 5 registering with channels 25. The open end of the container will fit snugly against the shoulder 2 and against the inner surface of the flange 3. After the parts have thus been assembled the container 4 is inverted with the dispensing device thereunder and said dispensing device is then suspended from the hooks 23 which are inserted into the openings 5 and the channels 25. With the parts thus arranged the device is ready for use, it being understood that the bulk material will gravitate into the receiver 1 and fill the upper pockets at andb after which measuredquantities of the material can be dispensed as heretofore explained. The blades 13 cooperate with the walls of the casing 7 to prevent moisture from entering the dispensing device and as the container 4 and receiver 1 are thus practically sealed the bulk material will not deteriorate. V It is'to be understood of course that means other than that described can be used for connecting a container to the dispensing device. For example the flange 26 at the top of the receiver 27 can be screwthreaded as shown in Figure Bso'as to be engaged by the threaded neck 28 of a jar 29 or the like. Obviously other changes in the construction and arrangement'of the parts can be made within the scope of the invention as claimed. 7

By providing the upwardlyconv erging upper portions of the casing walls 9, each blade 13, as it is moved downwardly, will approach the wall of the casing gradually so that none of the bulk material will become lodgedbetween the outer edge of the blade and the proper operation of the device,

What isclaimed is:

dispensingattachment for packaged bulk material including a receiver, means at one endthereof for engaging the open end of a package of bulk material and for engaging a supporting element, saidreceiver having a reduced lower end portion pr'ovidedlwith a bottom outlet, said reduced portion having wall of the" casing and interfere with the flat parallel side walls and opposed arcuate the blades relative to the converging flat walls walls, a transverse shaft journaled in the flat and into gradual engagement with the arcu-. walls, the lower portions of the arcuate walls ate walls, said blades forming pockets there 10 being concentric with the shaft, there being between.

5 opposed flat walls converging upwardly from In testimony that I claim the foregoing as the arcuate walls, blades radiating from the my own, I have hereto afiixed my signature. shaft, means for rotating the shaft to move HENRY A. JUN GE. 

